SA 118 28 0
LI 82 28 72 28 1
LI 96 28 92 28 1
LI 118 28 104 28 1
LI 124 28 118 28 1
LI 72 30 72 28 1
LI 118 30 118 28 1
LI 72 42 72 40 1
LI 118 44 118 40 1
MC 118 42 0 0 ey_libraries.refpnt0
MC 72 40 0 0 ey_libraries.refpnt0
SA 124 28 0
TY 126 24 4 2 0 1 2 Calibri OUT
MC 98 28 0 0 ey_libraries.pasxtal0
TY 100 28 2 2 0 1 15 Calibri  Y1
TY 100 31 2 2 0 1 15 Calibri  {Cs}
MC 72 32 0 0 ey_libraries.genivs0
TY 74 38 2 2 0 1 15 Calibri  AC 2
TY 74 32 2 2 0 1 15 Calibri  V1
TY 74 35 2 2 0 1 15 Calibri  ""
MC 92 28 1 0 115
TY 94 28 2 2 0 1 15 Calibri  R1
TY 94 31 2 2 0 1 15 Calibri  50
MC 118 40 2 0 115
TY 120 40 2 2 0 1 15 Calibri  R2
TY 120 43 2 2 0 1 15 Calibri  50
TY 78 15 2 2 0 1 15 Calibri ac lin 1001 3.95e6 4.05e6
TY 16 8 2 2 0 1 15 Calibri Crystal model from easily measurable parameters
TY 10 16 2 2 0 1 15 Calibri *serial freq
TY 10 20 2 2 0 1 15 Calibri params fs=4e6
TY 10 24 2 2 0 1 15 Calibri *difference between serial and // freq
TY 10 28 2 2 0 1 15 Calibri params df=10e3
TY 10 32 2 2 0 1 15 Calibri params Rs=50
TY 10 36 2 2 0 1 15 Calibri params Cp=4e-12
TY 10 40 2 2 0 1 15 Calibri params Cs=2.0*cp*df/fs
TY 10 44 2 2 0 1 15 Calibri params Ls=1/(4*pi*pi*fs*fs*Cs)
TY 36 52 1 1 0 1 15 Calibri This example schematic is supplied for informational/educational purposes only.
TY 55 54 1 1 0 1 15 Calibri Contributed by Dominique Szymik.